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个人简介 个人简介郑亚风,加泰罗尼亚理工大学博士,浙江工业大学朝晖特聘副研究员,硕士生导师。主要从事激光复合电化学加工技术与应用、激光表面强化技术与应用、金属材料和金属陶瓷复合材料组织和性能调控方面的研究。主持浙江省“尖兵”“领雁”研发攻关计划项目课题1项,校企合作项目1项;作为项目骨干参与国家重点研发计划课题1项,国家自然科学基金重点基金项目1项(4/8),浙江省“尖兵”“领雁”研发攻关计划项目1项(2/14),西班牙国家自然科学基金项目2项和企业委托项目3项;发表学术论文20余篇; 曾获研究生国家奖学金、国家留学基金委公派留学奖学金、加泰罗尼亚理工大学优秀博士论文奖。研究领域机械工程,材料加工工程研究兴趣激光复合电化学加工技术与应用激光表面强化技术与应用激光焊接技术与应用金属材料和金属陶瓷复合材料组织和性能调控 科研项目 纵向项目[1] 浙江省“领雁”研发攻关计划项目课题,芯片3D封装TGV玻璃通孔高速激光制造技术与装备 (2024C01130),2024.01-2026.12,主持。[2]浙江省科技计划项目(重点研发),低碳工业关键技术和装备研发(2022C03021),2022.01-2024.12,项目骨干(2/14)。[3] 国家自然科学基金重点基金项目,激光同步复合电化学表面陶瓷化机理及其关键技术,2023.01-2026.12,项目骨干(4/8)。[4] 西班牙国家自然科学基金项目,面对极端服役条件的陶瓷金属化合物和钨难熔合金的微观结构设计和生产工艺开发,2016.01-2020.12, 项目骨干。横向项目[1] 产学研项目,纯钛/不锈钢异种金属材料激光焊接技术开发,合作单位:浙江飞剑工贸有限公司,2021.09-2022.06,主持。 [2] 产学研项目,高功率激光切焊技术研发及产业化,合作单位:奔腾激光(温州)有限公司,2021.04-2024.04,焊接子项目负责人。[3] 产学研项目,塑料模具钢耐磨性能表征研究,合作单位:宝钢研究院,2014.12-2015.06,项目骨干。[4] 产学研项目,新型非调质塑料模具钢的研发、应用及产业化,合作单位:宁波九天重型锻造有限公司,2015.09-2016.09,项目骨干。 科研成果 期刊论文[1]Y. Wang, Q.D. Peng, G.L. Wu, J.H. Yao*, Y.Y. Yin, L. Li,Y.F. Zheng, C. Wen. Effect of auxiliary laser irradiation on characteristics and properties of micro-arc oxidation coating on Ti6Al4V alloy[J]. Ceramics International, 2024. Published online.[2]Y. Hu, L.C. Cao, L. Wang, Q.L. Zhang, Y.F. Liu, Y.F. Zheng, Y.Q. Du, J.H. Yao*. Effects of electromagnetic compound field on the macroscopic morphology of laser cladding[J]. Optics & Laser Technology, 2024, 174, 110555.[3] 郑亚风, 王贺超, 张毫杰, 张群莉, 王梁, 张华夏, 吴让大, 姚建华*. 高功率激光对不同模式熔化极气体保护焊熔滴过渡与焊缝成形的影响. 中国激光, 2024, 51(12), 1202107.[4] 郑亚风, 刘双仁, 张群莉, 王梁, 张华夏, 吴让大, 姚建华*. 电弧功率对高功率激光-电弧复合焊熔滴过渡与飞溅的影响. 中国激光, 2023, 50(12), 1202010.[5] Y.F. Zheng, G. Fargas, O. Lavigne, Q.L. Zhang, J.H. Yao, L. Llanes*. Influence of corrosion‐induced damage on mechanical integrity and load‐bearing capability of cemented carbides.Metals, 2022, 12, 2104.[6] Y.F. Zheng, G. Fargas, O. Lavigne, M. Serra, D. Coureaux, P.P. Zhang, Z.H. Yao, Q.L. Zhang, J.H. Yao, L. Llanes*. Contact fatigue of WC-6%wtCo cemented carbides: Influence of corrosion-induced changes on emergence and evolution of damage. Ceramics International, 2022, 48, 5766-5774.[7] P.P. Zhang, Y.H. Sun, Y.L. Wang, Y.F. Zheng, X.F. Zhang., Q.L. Zhang, J.H. Yao. Thermal shock resistance of thermal barrier coatings modified by selective laser remelting and alloying techniques. Journal of the American Ceramic Society, 2022, 105, 6345-6358.[8] Y.F. Zheng, G. Fargas, O. Lavigne, L. Llanes*. Indentation and scratch testing of a WC-6%wt Co cemented carbide: Corrosion effects on load-bearing capability and induced damage. Ceramics International, 2020, 46, 17591-17598. [9] Y.F. Zheng*, G. Fargas, O. Lavigne, E. Roitero, L. Llanes. Corrosion-induced changes on Hertzian contact damage in cemented carbides. International Journal of Refractory Metals and Hard Materials, 2020, 92, 105334.[10]Y.F. Zheng*, G. Fargas, H. Besharatloo, M. Serra, J. J. Roa, E. Armelin, O. Lavigne, L. Llanes. Assessment of corrosion-induced changes on the mechanical integrity of cemented carbides at small length scales. International Journal of Refractory Metals and Hard Materials, 2019, 84, 105033.[11] Y.F. Zheng, G. Fargas, E. Armelin, O. Lavigne, L. Llanes*. Corrosion-induced damage and residual strength of WC-Co, Ni cemented carbides: influence of microstructure and corrosion medium. Metals, 2019, 9, 1018.[12]Y.F. Zheng, R.M. Wu, X.C. Li, X.C. Wu*. Continuous cooling transformation behaviour and bainite formation kinetics of new bainitic steel. Materials Science and Technology, 2017, 33, 454-463. [13] 郑亚风*, 吴日铭, 李晓成, 吴晓春. 钛对非调质塑料模具钢奥氏体晶粒长大规律的影响[J]. 材料导报, 2017, 31, 82-87/108.[14] 李晓成, 郑亚风, 吴晓春. 晶粒尺寸对贝氏体钢SDP1的连续冷却转变规律的影响. 材料导报, 2017, 31(3), 86-92.[15] R.M. Wu, Y.F. Zheng, X.C. Wu, X.C. Li. Effect of titanium on the microstructure and hardness uniformity of non-quenched and tempered pre-hardened steel for large-section plastic mould, Ironmaking & Steelmaking, 2017, 44(1), 17-22.会议论文[1] Y.F. Zheng, M. Serra, G. Fargas, E. Armelin, O. Lavigne, Q.L. Zhang, J.H. Yao, L. Llanes. Influence of corrosion‐induced damage on mechanical integrity and load‐bearing capability of cemented carbides. 20th Plansee Seminar, Proceedings book, Reutte, Austria, 29 May-1 June, 2022.(口头报告,导师汇报)[2] Y.F. Zheng, G. Fargas, O. Lavigne, L. Llanes. Corrosion effects on Hertzian contact fatigue behavior of a WC-Co cemented carbide. European Congress and Exhibition on Powder Metallurgy. Proceedings book,Virtual Congress, 18-22 October, 2021.(口头报告)[3] Y.F. Zheng, G. Fargas, O. Lavigne, E. Roitero, L. Llanes.Corrosion effects on contact damage of a WC-Ni cemented carbide. European Congress and Exhibition on Powder Metallurgy. Proceedings book, Virtual Congress, 4-7 October, 2020.(口头报告)[4] Y.F. Zheng, G. Fargas, H. Besharatloo, J.J. Roa, E. Armelin, O. Lavigne, L. Llanes.Evaluation of corrosion-induced damage in hardmetals at micrometric length scale. VII Congreso Español de Pulvimetalurgia y II Congreso Iberoamericano de Pulvimetalurgia. Oral presentation. Madrid, Spain, 24-26 June, 2019.(口头报告)[5] Y.F. Zheng, G. Fargas, H. Besharatloo, M. Serra, J.J. Roa, E. Armelin, O. Lavigne, L.Llanes. Small-scale assessment of corrosion-induced damage in hardmetals. European Congress and Exhibition on Powder Metallurgy, Proceedings book, Maastricht, Netherlands, 13-16 October, 2019.(口头报告)[6] Y.F. Zheng, G. Fargas, H. Besharatloo, M. Serra, J.J. Roa, E. Armelin, O. Lavigne, L. Llanes.Quantification of corrosion-induced damage on cemented carbides by nanoindentation. 11th International Conference on the Science of Hard Materials. Khao Lak, Thailand, 25-29 March, 2019.(口头报告,导师汇报)[7] Y.F. Zheng, G. Fargas, E. Armelin, O. Lavigne, L. Llanes.Effect of corrosion-induced damage on microstructure and residual strength of WC-Co,Ni cemented carbides. European Congress and Exhibition on Powder Metallurgy, Proceedings book, Bilbao, Spain, 14-18 October, 2018. (口头报告) 育人成果 已毕业研究生刘双仁,2020级,学硕,姚建华/郑亚风 毕业去向:宁波海天集团股份有限公司在读研究生虞佳,2021级,学硕,姚建华/郑亚风王贺超,2022级,学硕,郑亚风安原龙,2022级,专硕,姚建华/郑亚风敬宇,2022级,专硕,郑亚风/李文凯黄天天,2023级,学硕,郑亚风